Isosceles Trapezoid: Finding Perimeter Given Area=9cm² and Parallel Sides 3,6

Q: Why do we need to find the height first?

The height is the missing link between the area formula and finding the legs! Once you know the height is 2 cm, you can use the Pythagorean theorem to find each leg length.

Q: How do I know the legs are equal?

The problem states it's an isosceles trapezoid, which by definition has two equal legs. This means AC = BD, so you only need to calculate one leg length.

Q: What if I get a decimal in the Pythagorean theorem?

Decimals are normal! Here we get $ \sqrt{6.25} = 2.5 $. Always check if the square root gives a nice decimal before leaving it in radical form.

Q: Can I solve this without drawing the height?

Drawing the height is essential for visualization! It shows you exactly where to apply the Pythagorean theorem and helps you see the rectangle-triangle breakdown clearly.

Trapezoid Properties with Height from Area

ABCD is an isosceles trapezoid.

AB = 3

CD = 6

The area of the trapezoid is 9 cm².

What is the perimeter of the trapezoid?

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Step-by-step video solution

Watch the teacher solve the problem with clear explanations

00:12 Let's find the perimeter of the trapezoid together.

00:17 We'll use the area formula for trapezoids to help us.

00:22 Add the lengths of bases A B and D C. Multiply by height H, then divide by 2.

00:30 Let's plug in the values we know and solve for the height, H.

00:35 Multiply everything by 2 to get rid of the fraction.

00:42 Now, let's focus on isolating the height, H.

00:52 Great! This is the height size, B E.

00:59 Draw a second height to form a rectangle.

01:03 In rectangles, opposite sides are equal.

01:07 Overlapping triangles mean their sides match.

01:12 Each side is half of C D, which is half of 3.

01:18 Let's apply the Pythagorean theorem to triangle B D E.

01:26 Substitute values to find B D. Ready? Let's solve!

01:39 Great! B D is this size, and A C is the same, as legs are equal.

01:45 The perimeter is the sum of all sides.

01:50 Insert given measurements, then add to find the perimeter.

01:55 Well done! That's how we solve this problem!

Step-by-step written solution

Follow each step carefully to understand the complete solution

Understand the problem

ABCD is an isosceles trapezoid.

AB = 3

CD = 6

The area of the trapezoid is 9 cm².

What is the perimeter of the trapezoid?

Step-by-step solution

We can find the height BE by calculating the trapezoidal area formula:

$S=\frac{(AB+CD)}{2}\times h$

We replace the known data: $9=\frac{(3+6)}{2}\times BE$

We multiply by 2 to get rid of the fraction:

$9\times2=9\times BE$

$18=9BE$

We divide the two sections by 9:

$\frac{18}{9}=\frac{9BE}{9}$

$2=BE$

If we draw the height from A to CD we get a rectangle and two congruent triangles. That is:

$AF=BE=2$

$AB=FE=3$

$ED=CF=1.5$

Now we can find one of the legs through the Pythagorean theorem.

We focus on triangle BED:

$BE^2+ED^2=BD^2$

We replace the known data:

$2^2+1.5^2=BD^2$

$4+2.25=DB^2$

$6.25=DB^2$

We extract the root:

$\sqrt{6.25}=DB$

$2.5=DB$

Now that we have found DB, it can be argued that:

$AC=BD=2.5$

We calculate the perimeter of the trapezoid: $6+3+2.5+2.5=$

$9+5=14$

Final Answer

Key Points to Remember

Essential concepts to master this topic

Area Formula: Use $A = \frac{(b_1 + b_2)}{2} \times h$ to find height
Technique: Create right triangles by dropping perpendiculars from vertices
Check: Perimeter = 3 + 6 + 2.5 + 2.5 = 14 cm ✓

Common Mistakes

Avoid these frequent errors

Forgetting that equal legs create equal base segments
Don't assume the height divides the base randomly = wrong leg calculations! In an isosceles trapezoid, the perpendiculars create equal segments on each end. Always calculate: base difference ÷ 2 = each end segment.

Practice Quiz

Test your knowledge with interactive questions

Given the trapezoid:

What is the area?

FAQ

Everything you need to know about this question

Why do we need to find the height first?

The height is the missing link between the area formula and finding the legs! Once you know the height is 2 cm, you can use the Pythagorean theorem to find each leg length.

How do I know the legs are equal?

The problem states it's an isosceles trapezoid, which by definition has two equal legs. This means AC = BD, so you only need to calculate one leg length.

Why is each end segment 1.5 cm?

When you drop perpendiculars from the short base to the long base, they create a rectangle in the middle. The remaining segments split the difference: (6-3)÷2 = 1.5 cm on each end.

What if I get a decimal in the Pythagorean theorem?

Decimals are normal! Here we get $\sqrt{6.25} = 2.5$ . Always check if the square root gives a nice decimal before leaving it in radical form.

Can I solve this without drawing the height?

Drawing the height is essential for visualization! It shows you exactly where to apply the Pythagorean theorem and helps you see the rectangle-triangle breakdown clearly.

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